KR102134145B1 - Slewing bearing replacement method of ship unloader - Google Patents

Abstract

The present invention relates to a slewing bearing replacement method of an unloader. According to the present invention, the slewing bearing replacement method of an unloader including a portal frame and a center post to support a plurality of components, a slewing frame coupled to be rotated by a slewing bearing, a working part for performing work, and a weight block to complement the center of gravity comprises: a jack support installation step (S10) of installing a jack support for supporting a jack unit to jack up the slewing frame on one side of the portal frame; a jack unit installation step (S20) of installing a jack unit for jacking up the slewing frame on one side of the jack support; a slewing bearing support installation step (S30) of installing a slewing bearing support to guide and support a slewing bearing on one side of the portal frame; a slewing bearing separation step (S40) of separating a slewing bearing from the slewing frame and the center post; a slewing bearing replacement step (S50) of replacing the slewing bearing separated from the slewing frame and the center post; and a slewing bearing coupling step of coupling the slewing bearing replaced by the slewing bearing replacement step to the center post and the slewing frame. According to the present invention, the slewing bearing can be replaced without additional installation of a support for supporting the working part on the working part and separation of the weight block by the jack support and the jack unit, and the slewing bearing replacement method of an unloader can be applied to unloaders having various structures.

Description

Slewing bearing replacement method of ship unloader

The present invention relates to a method for replacing the slewing bearing of the unloading machine, and more specifically, it is possible to replace the slewing bearing without additional installation of a support for supporting the working part in the separation and separation of the weight block through the jack support and the jack unit. It is related to the slewing bearing replacement method.

In general, the unloading machine is for loading and unloading raw materials from a ship anchored at a pier.

The above-mentioned unloading machine includes a portal frame and a center post supporting a plurality of parts, a slewing frame rotatably coupled with the center post, a working part where the unloading work is performed, and a weight installed to balance the working part It is composed of blocks and the like.

Here, a slewing bearing is further provided for the center post and the slewing frame to be rotatably coupled, and the slewing bearing must be replaced as the aging progresses over time.

However, conventionally, when replacing the slewing bearing, the components constituting the unloading machine have a high weight and are concerned about conduction due to imbalance between the work part and the weight block, and thus provide a separate support to support the work part weight on the work part side. After installing and separating the weight blocks, additional work was carried out to minimize the weight of the unloader and maintain balance, and then the slewing bearing was replaced.

The replacement method described above is not only problematic in that damage is caused to the pier in installing a support capable of supporting the weight of the work part, but the support is heavy and elongated, so the time required for manufacturing and installation work is increased. There was a problem that the loss occurs.

On the other hand, a casing assembly structure of a bucket elevator gantry conveyor for a continuous unloading machine capable of replacing gears constituting a working part of the unloading machine and a method for replacing the gears thereby are disclosed.

In this regard, in 10-1447416, the upper casing, the middle casing, and the lower casing constitute a flange type, and a spacer frame is provided on the outer surface of the upper casing, and a supporting lower body is provided on the outer surface of the lower casing.

In addition, a jig member is provided between the supporting lower body and the spaced frame to induce vertical elevation of the upper casing, so that the upper casing is vertically elevated, and through this, the upper casing is vertically elevated to replace the gear.

However, the casing assembly structure of the bucket elevator gantry conveyor for the continuous unloading machine according to the prior art and the method for replacing the gear therein have a problem that it is not applicable to the unloading machine having various structures other than the above-described structure.

In addition, the casing assembly structure of the bucket elevator gantry conveyor for a continuous loading and unloading machine according to the related art and a method for replacing the gear therefor are for replacing gears constituting a bucket elevator gantry conveyor in which work is performed, slewing frame and center post There was a problem that can not be applied to the replacement of the slewing bearing to be rotatably coupled.

Korean Registered Patent No. 10-1447416

Therefore, the object of the present invention was devised to solve the problems of the prior art as described above, and it is possible to replace the slewing bearing without additional installation of the support for supporting the work part and large-scale separation of the weight block. It is to provide a method of replacing the slewing bearing of the unloading machine applicable to the unloading machine having various structures.

According to a feature of the present invention for achieving the above object, a portal frame and a center post supporting a plurality of parts, a slewing frame rotatably coupled by a slewing bearing, and a work unit in which work is performed , In the method of replacing the slewing bearing of the unloading machine is provided with a weight block to complement the center of gravity,

A jack support installation step of installing a jack support for supporting a jack unit for jacking up a slewing frame on one side of the portal frame, and a jack unit installation for installing a jack unit for jacking up a slewing frame on one side of the jack support Step, a slewing bearing support installation step of installing a slewing bearing support for guiding and supporting the separated slewing bearing for replacement on one side of the portal frame, and separating the slewing bearing from the slewing frame and the center post The slewing bearing separation step, the slewing bearing replacement step of replacing the slewing bearing separated from the center post and the slewing frame, and the slewing bearing replaced by the slewing bearing replacement step of the center post and slewing Characterized in that it proceeds, including the step of coupling the slewing bearing to engage the frame.

The jack support installation step is characterized in that it includes a support base installation process of installing a support base on one side of the portal frame, a support frame combining process of combining a support frame on one side of the support base, and the like.

The slewing bearing separation step is exposed through the primary outer ring fastening member separation process for separating a portion of the plurality of outer ring fastening members that allow the center post and the slewing bearing to be coupled, and the primary outer ring fastening member separation process. When the jack-up and jack-down are performed on the first outer ring bolt insertion hole and the second outer ring bolt insertion hole, the outer ring guide reamer inserts the outer ring guide reamer to prevent the center between the first outer ring bolt insertion hole and the second outer ring bolt insertion hole from being distorted A jack-up is performed by a jack unit to allow the center post and the slewing bearing to be separated, and a process for separating the second outer ring fastening member for separating the outer ring fastening member that is not separated during the insertion process and the primary outer ring fastening member separation process. The jack by the jack unit so that the primary jack-up process, the transport medium insertion process for inserting the transport medium for withdrawing the slewing bearing on one side of the center post, and the slewing bearing and the transport medium are in close contact The first jack-down process is performed, the primary inner ring fastening member separating process of separating a part of the plurality of inner ring fastening members allowing the slewing frame and the slewing bearing to be combined, and the primary inner ring fastening member separating process. When jack-up and jack-down are performed on the first inner ring bolt inserting hole and the second inner ring bolt inserting hole, the inner ring guide reamer is inserted to prevent the center between the first inner ring bolt inserting hole and the second inner ring bolt inserting hole from being distorted. The inner ring guide reamer insertion process, the second inner ring fastening member separation process for separating the inner ring fastening member not separated in the first inner ring fastening member separation process, and the slewing frame and the slewing bearing to the jack unit to be spaced apart Characterized in that it proceeds, including the second jack-up process is made by the jack-up.

The slewing bearing coupling step, a second jack-down process in which a jack-down is performed by a jack unit so that the slewing frame and the slewing bearing are in close contact, and an inner ring fastening such that the slewing frame and the slewing bearing are coupled The first inner ring fastening member coupling process for joining the member, the inner ring guide reamer separation process for separating the inner ring guide reamer to prevent the skew between the slewing bearing and the slewing frame, and the exposed part through the inner ring guide reamer separation process Secondary inner ring fastening member joining process of joining the inner ring fastening member to the first inner ring bolt inserting hole and the second inner ring bolt inserting hole, and the third jack-up that is jacked up by the jack unit so that the center post and the slewing bearing are spaced apart A process, a transport medium removal process for removing the transport medium inserted at one side of the center post, and a third jack down process in which a jack down is performed by a jack unit so that the center post and the slewing bearing are in close contact with each other. , A primary outer ring fastening member joining process for joining the outer ring fastening member to allow the center post and the slewing bearing to be engaged, and a outer ring guide reamer separation process for separating the outer ring guide reamer preventing distortion between the center post and the slewing bearing And a secondary outer ring fastening member joining process for coupling the outer ring fastening member to the first outer ring bolt inserting hole and the second outer ring bolt inserting hole exposed through the outer ring guide reamer separation process.

In the process in which the jack-up is performed by the jack unit, progress is performed while inserting a shim to prevent the slewing frame from falling on one side of the jack unit, and the shim is formed in a shape corresponding to the jack unit.

The slewing bearing replacement method of the unloading machine according to the present invention has the following effects.

In the present invention, the jack support and the jack unit are provided on the side surface of the portal frame, and thus have the advantage of being applicable to a loading and unloading machine having various structures.

In the present invention, the weight applied to the slewing frame is minimized by partially removing the weight element and the weight block of the work portion within a mutually balanced range, and the load acting on the jack unit according to the balance of the work portion and the weight block is minimized. By controlling, it is possible to replace the slewing bearing without large-scale separation of the weight block without installing a separate supporter for supporting the weight of the work part, thereby significantly reducing the time and cost required for the work.

In the present invention, a shim is provided to prevent the slewing frame from falling due to a malfunction of the jack unit, and safety is increased by jack-up and shim insertion or jack-down and shim removal in parallel when the jack unit is operated.

1 is a flow chart showing the configuration of a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention
Figure 2 is a front view showing the configuration of a preferred embodiment of a loading machine to which the slewing bearing replacement method of the loading machine according to the present invention is applied
Figure 3 is a flow chart showing the flow of the jack support installation step and the jack unit installation step constituting a preferred embodiment of the slewing bearing replacement method of the loader according to the present invention
Figure 4 is a flow chart showing the flow of the slewing bearing separation step constituting a preferred embodiment of the slewing bearing replacement method of the loader according to the present invention
Figure 5 is a flow chart showing the flow of the slewing bearing coupling step constituting a preferred embodiment of the slewing bearing replacement method of the loader according to the present invention
Figure 6 is a perspective view showing an application example of the jack support installation step and the jack unit installation step and the slewing bearing support installation step constituting a preferred embodiment of the slewing bearing replacement method of the unloader according to the present invention
7 is a perspective view showing an application example of a shim constituting a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention

Hereinafter, a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention will be described with reference to the drawings.

As shown in Figures 1 to 7, there is shown an embodiment of a slewing bearing replacement method of a loader according to the present invention. That is, FIG. 1 is a flow chart showing the configuration of a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention, and FIG. 2 shows the configuration of a unloading machine to which the slewing bearing replacement method of the unloading machine according to the present invention is applied. The front view is shown, and FIG. 3 is a flow chart showing the flow of the jack support installation step and the jack unit installation step constituting a preferred embodiment of the slewing bearing replacement method of the unloader according to the present invention, and FIG. 4 A flow chart showing the flow of the slewing bearing separation step constituting a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention is shown, and FIG. 5 is a preferred embodiment of the slewing bearing replacement method of the unloading machine according to the present invention A flow chart showing the flow of the slewing bearing coupling step constituting an example is shown, and FIG. 6 is a jack support installation step and a jack unit installation step constituting a preferred embodiment of the slewing bearing replacement method according to the present invention, and A perspective view showing an application example of a slewing bearing support installation step is illustrated, and FIG. 7 is a perspective view showing a shim constituting a preferred embodiment of a slewing bearing replacement method of a loader according to the present invention.

As shown in these drawings, the slewing bearing replacement method of the loading and unloading machine according to the present invention is rotatable by a portal frame 100 and a center post 110 supporting a plurality of parts, and a slewing bearing 200 In the slewing frame replacement method of the loading and unloading machine equipped with a slewing frame 120, a work portion 130, and a weight block 140 that complements the center of gravity,

Jack support installation step (S10) for installing the jack support 300 for supporting the jack unit 400 for jacking up the slewing frame 120 on one side of the portal frame 100, and the jack support 300 Jack unit installation step (S20) for installing the jack unit 400 for jack-up of the slewing frame 120 on one side of the, and guiding and supporting the slewing bearing 200 on one side of the portal frame 100 Slewing bearing support installation step (S30) for installing the slewing bearing support 210, and slewing bearing separation step for separating the slewing bearing 200 from the slewing frame 120 and the center post 110 ( S40), the slewing bearing replacement step (S50) for replacing the slewing bearing 200 separated from the center post 110 and the slewing frame 120, and the slewing bearing replacement step (S50). The slewing bearing 200 is replaced with a center post 110 and a slewing bearing coupling step (S60) for coupling with the slewing frame 120, and the like, and particularly supports the weight of the working part 130 In order to be able to replace the slewing bearing 200 without additional installation of the support for and large-scale separation of the weight block 140.

Here, the slewing frame 120 and the slewing bearing 200 is coupled by a plurality of inner ring fastening members 500, the slewing frame 120 and the slewing bearing 200 has an inner ring bolt 501 The first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 to be inserted are respectively formed.

The inner ring fastening member 500 includes an inner ring bolt 501, an inner ring nut 502, and the like.

A plurality of the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 may be formed.

In addition, the center post 110 and the slewing bearing 200 are coupled by a plurality of outer ring fastening members 510, and the outer ring bolt 511 is inserted into the center post 110 and the slewing bearing 200. The first outer ring bolt inserting hole 560 and the second outer ring bolt inserting hole 570 are respectively formed.

The outer ring fastening member 510 includes an outer ring bolt 511, an outer ring nut 512, and the like.

A plurality of the first outer ring bolt insertion hole 560 and the second outer ring bolt insertion hole 570 may be formed.

That is, the outer ring of the slewing bearing 200 is coupled to the center post 110 by a plurality of outer ring bolts 511 and the outer ring nut 512, and the inner ring of the slewing bearing 200 has a plurality of inner ring bolts ( 501) and the inner ring nut 502 are combined with the slewing frame 120.

The method of replacing the slewing bearing of the unloading machine through each of these steps will be described in more detail with each step as follows.

First, the jack support installation step (S10) is to install the jack support 300 for supporting the jack unit 400 for jacking up the slewing frame 120.

In the jack support installation step (S10), a support base installation process (S11) for installing a support base 310 on one side of the portal frame 100 and a support frame 320 on one side of the support base 310 are provided. The support frame combining process (S12) and the like are performed, and the jack base installation process (S13) of installing the jack base 330 on one side of the support frame 320 may be selectively performed.

Here, the jack support 300, the support base 310 welded to one side of the portal frame 100, is screwed to one side of the support base 310 and extends from the support base 310 to one side. The support frame 320 to be adjacent to the ruby frame 120 is installed on one side of the support frame 320, and the separation between the jack unit 400 and the slewing frame 120 according to the height of the jack unit 400 And a jack base 330 for adjusting the distance.

First, the support base installation process (S11) is to install the support base 310 on the side of the portal frame 100, and it is suggested that the support base 310 is welded to the side of the portal frame 100. The state in which such a process is completed is shown in (a) shown in FIG. 3.

The support base 310 is for supporting the support frame 320, the jack base 330, the jack unit 400, and the like, and is preferably installed to support them.

The support base 310 is made of a box-type steel structure, and a plurality of support bases 310 may be provided on the side surface of the portal frame 100. In the present invention, four support bases 310 are provided. .

In addition, the support base 310 is provided on the side of the portal frame, and interference with the existing structure of the portal frame 100 does not occur, and accordingly, the support base 310 can be preserved without being demolished after installation. Do.

In addition, the support base 310 may be installed prior to the operation of the unloading machine, thereby reducing the time required to replace the slewing bearing 200.

Next, the support frame combining process (S12) is performed, and the support frame combining process (S12) is to couple the support frame 320 to the upper side of the support base 310. The state in which such a process is completed is shown in (b) shown in FIG. 3.

The support frame 320 extends upward from the support base 310 so as to be adjacent to the slewing frame 120.

The support frame 320 is made of a box-type steel structure, and is installed vertically.

In addition, the number of support frames 320 is provided corresponding to the number of support bases 310, and in the present invention, four support frames 320 are provided.

In addition, the support frame 320 is provided to be coupled by a support base 310 and a bolt.

Accordingly, the support frame 320 may be easily separated and combined with the support base 310, and the time required to replace the slewing bearing 200 may be shortened.

Next, the jack base installation process (S13) is performed, and the jack base 330 is installed on the upper side of the support frame 320. The state in which such a process is completed is shown in (c) shown in FIG. 3.

The jack base 330 is for adjusting a separation distance between the jack unit 400 and the slewing frame 120.

The jack base 330 may be formed of a box-type steel structure, and may be installed as if it is mounted on the upper side of the support frame 320, and may be installed through tack welding as necessary.

As such, the jack base 330 may be selectively installed on the upper side of the support frame 320.

That is, the jack base 330 may not be used when the separation distance between the jack unit 400 and the slewing frame 120 is sufficiently close when the jack unit 400 is installed on the upper side of the support frame 320. There will be.

Next, the jack unit installation step (S20) is performed, and the jack unit 400 is installed on the support frame 320 or the upper side of the jack base 330. The state in which such a process is completed is shown in (d) shown in FIG. 3.

The jack unit 400 is installed on the upper side of the jack base 330 or the support frame 320 according to the separation distance from the slewing frame 120, and jacking up the slewing frame 120 upward (jack- up).

In addition, the jack unit 400 includes a jack unit work unit 410 in which jack-up is performed, and a jack unit body 420 that forms an external shape.

The jack unit 400 is preferably provided as many as the number corresponding to the support base 310 and the support frame 320. In the present invention, four jack units 400 are provided.

As such, the jack unit 400 is proposed to perform the jack-up using the hydraulic pressure, the jack unit 400 is a well-known technology, detailed description thereof will be omitted.

The apparatus and structure for jacking up the slewing frame 120 through the jack support installation step (S10) and the jack unit installation step (S20) including such a process will be installed.

Next, a slewing bearing support installation step (S30) proceeds, and the slewing bearing support 210 is installed on the upper side of the portal frame 100. In this regard, it is as shown in FIG. 6.

The slewing bearing support 210 is for the replacement of the slewing bearing 200, the work of inserting a new slewing bearing 200 in addition to drawing out the previously used slewing bearing 200 This is to guide or support the slewing bearing 200 to be easily made.

The slewing bearing support 210 includes a top plate 211 on which the slewing bearing 200 is placed, a support member 212 for supporting the top plate 211, and the like.

The upper plate 211 is formed in a shape similar to a square plate, and is preferably formed to be at least larger than the slewing bearing 200 so that the slewing bearing 200 is placed on the upper portion.

The support member 212 is provided with a plurality of the lower portion of the upper plate 211, and is to support the upper plate 211 while allowing the upper plate 211 to be separated from the upper surface of the portal frame 100.

Such, the support member 212 will preferably have a vertical length so that the upper surface of the upper plate 211 can be provided side by side in a position corresponding to the upper surface of the center post (110).

The slewing bearing support 210 configured as described above is installed on the upper side of the portal frame 100, and the slewing bearing support 210 is a process in which the slewing bearing 200 is jacked up by the jack unit 400. In the slewing bearing 200 should be installed so that interference does not occur.

And, as the slewing bearing support 210 is installed on the upper side of the portal frame 100, the manufacturing cost of the slewing bearing support 210 is reduced and installation time is reduced, and safety of workers around the slewing bearing support 210 is secured. Could be done.

In this way, the slewing bearing support 210 can be installed on the upper side of the portal frame 100 is possible because the support base 310 is installed on the side of the portal frame 100.

Next, the slewing bearing separation step (S40) is performed, which is to release the coupling of the slewing bearing 200 with the slewing frame 120 and the center post 110.

The slewing bearing separation step (S40) is a primary outer ring fastening member separation process (S401) for separating a part of a plurality of outer ring fastening members 510 that allow the center post 110 and the slewing bearing 200 to be coupled. ), the first outer ring bolt insertion hole 560 and the second outer ring bolt insertion hole 570 exposed through the first outer ring fastening member separation process (S401), when jack-up and jack-down is made, the first outer ring bolt insertion The outer ring guide reamer insertion process (S402) for inserting the outer ring guide reamer (540) to prevent the center between the ball (560) and the second outer ring bolt insertion hole (570) from being distorted, and the first outer ring fastening member separation process ( S401) the second outer ring fastening member separating process (S403) for separating the outer ring fastening member 510, and the jack unit 400 so that the center post 110 and the slewing bearing 200 can be separated. A first jack-up process (S404) in which jack-up is performed by, and a transport medium insertion process (S405) for inserting a transport medium 220 for withdrawing the slewing bearing 200 to one side of the center post 110 (S405). And, the first jack-down process in which jack-down is performed by the jack unit 400 so that the slewing bearing 200 and the transport medium 220 can be in close contact (S406), and the slewing frame 120 and The primary inner ring fastening member separating process (S407) for separating a part of the plurality of inner ring fastening members 500 to allow the slewing bearing 200 to be coupled, and the primary inner ring fastening member separating process (S407). When jack-up and jack-down are performed on the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590, the center between the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 is twisted A second inner ring separating the inner ring guide reamer inserting process (S408) for inserting the inner ring guide reamer (550) to prevent the support and the inner ring fastening member (500) not separated in the first inner ring fastening member separation process (S407). Fastening member The process includes a step S409 and a second jack-up process S410 in which jack-up is performed by the jack unit 400 so that the slewing frame 120 and the slewing bearing 200 are spaced apart.

In the process in which the jack-up is performed by the jack unit 400, the process proceeds while inserting a shim 430 for preventing the slewing frame 120 from falling on one side of the jack unit 400, and the shim corresponds to the jack unit. It is made in shape. In this regard, it is as shown in FIG. 7.

In addition, in the process of jack-down by the jack unit 400, it will be desirable to proceed while removing the shim 430.

First, the primary outer ring fastening member separation process (S401) is performed.

The primary outer ring fastening member separation process (S401) is to separate a part of the plurality of outer ring fastening members 510 that allow the center post 110 and the slewing bearing 200 to be coupled, and the process is completed. Is the same as (e) shown in FIG. 4.

Next, the outer ring guide reamer insertion process (S402) is performed.

The outer ring guide reamer insertion process (S402), the first outer ring fastening member separation process (S401) exposed through a plurality of first outer ring bolt insertion hole 560 and the second outer ring bolt insertion hole 570, the first outer ring By inserting the outer ring guide reamer 540 to prevent distortion between the bolt insertion hole 560 and the second outer ring bolt insertion hole 570, a state in which such a process is completed is the same as (f) shown in FIG. 4. .

The outer ring guide reamer 540 is to prevent the center of the first outer ring bolt insertion hole 560 and the second outer ring bolt insertion hole 570 between jack-up or jack-down operations.

In addition, the outer ring guide reamer 540 replaces the outer ring bolt 511, when the previously used slewing bearing is separated and a new slewing bearing is combined, the replaced slewing bearing 200 and the center It is intended to guide the position of engagement with the post 110.

That is, the outer ring guide reamer 540 is to facilitate recombination by the outer ring bolt 511 and the outer ring nut 512 when the slewing bearing 200 is recombined with the center post 110.

Next, a process of separating the secondary outer ring fastening member (S403) is performed.

The secondary outer ring fastening member separation process (S403) is to separate the extra outer ring fastening member 510 that is not separated in the primary outer ring fastening member separation process (S401). It is as shown in (g).

Next, the first jack-up process (S404) is performed.

The first jack-up process (S404) is to enable the center post 110 and the slewing bearing 200 to be spaced apart, and the state in which such a process is completed is as shown in (h) of FIG. 4.

And, in the first jack-up process (S404), the distance between the center post 110 and the slewing bearing 200 is preferably a jack-up so that the transport medium 220 can be inserted.

Here, it is preferable that the insertion of the shim 430 for preventing the fall of the slewing frame 120 in the process of the first jack-up is performed in parallel.

The shim 430 is made of a shape corresponding to the jack unit work portion 410 of the jack unit 400, and the shim 430 has a shape similar to that of a circular ring cut in half.

For example, as the jack-up of the slewing frame 120 is progressed by the jack unit 400, the jack unit body 420 and the jack unit body 420 are inserted by inserting the shim 430 between the jack unit body 420 and the slewing frame 120. The separation distance between the slewing frames 120 may be minimized, thereby preventing the slewing frames 120 from falling.

Of course, the shim 430 may have the same function even if it is installed on the upper surface of the jack base 330 or the support frame 320, in addition to being inserted into the upper surface of the jack unit body 420.

Next, a process for inserting a medium for transport (S405) is performed.

The transport medium insertion process (S405) is to insert the transport medium 220 into the space between the center post 110 and the slewing bearing 200 formed by the primary jack-up process (S404). The state of completing the same process is as shown in (i) in FIG. 4.

The conveying medium 220 is to allow the slewing bearing 200 to be easily separated and pulled out after being completely separated from the center post 110 and the slewing frame 120.

The medium for conveying 220 is an example of a long round bar having a predetermined length.

In addition, a plurality of transport media 220 may be provided.

Next, the first jack-down process (S406) is performed.

The first jack-down process (S406) is to allow the slewing bearing 200 and the transport medium 220 to be in close contact, and the state of completing this process is the same as (j) shown in FIG. 4. .

Here, it is preferable that the removal of the shim 430 is performed in parallel in the process of the first jackdown.

Next, the primary inner ring fastening member separation process (S407) is performed.

The primary inner ring fastening member separation process (S407) is to separate a portion of the plurality of inner ring fastening members 500 to allow the slewing frame 120 and the slewing bearing 200 to be combined, and the process is completed. The state is as shown in (k) in FIG. 4.

Next, an inner ring guide reamer insertion process (S408) is performed.

The inner ring guide reamer insertion process (S408), the first inner ring fastening member separation process (S407) exposed through a plurality of first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590, the first inner ring By inserting the inner ring guide reamer 550 to prevent distortion between the bolt insertion hole 580 and the second inner ring bolt insertion hole 590, a state in which such a process is completed is the same as (l) shown in FIG. 4. .

The inner ring guide reamer 550 is for preventing the center of the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 between jack-up or jack-down operations.

In addition, the inner ring guide reamer 550 is to replace the inner ring bolt 501, when the previously used slewing bearing is separated and a new slewing bearing is combined, the replaced slewing bearing 200 and the slewing It is for guiding the coupling position with the ruby frame 120.

That is, the inner ring guide reamer 550 is to facilitate re-engagement by the inner ring bolt 501 and the inner ring nut 502 when the slewing bearing 200 is recombined with the slewing frame 120.

Next, a process of separating the secondary inner ring fastening member (S409) is performed.

The second inner ring fastening member separation process (S409) is to separate the extra inner ring fastening members 500 that are not separated in the first inner ring fastening member separation process (S407 ). It is as shown in (m).

Next, the second jack-up process (S410) is performed.

The second jack-up process (S410) is to enable the slewing frame 120 and the slewing bearing 200 to be spaced apart, and a state in which such a process is completed is as shown in FIG. 4 (n).

Here, it is preferable that the insertion of the shim 430 for preventing the fall of the slewing frame 120 in the process of the second jack-up is performed in parallel.

The slewing bearing 200 may be separated from the slewing frame 120 and the center post 110 through the slewing bearing separation step S40 including such a process.

Next, a slewing bearing replacement step (S50) is performed.

First, since the slewing bearing 200, the center post 110, and the slewing frame 120 are constrained by the outer ring guide reamer 540 and the inner ring guide reamer 550, the outer ring guide reamer 540 and the inner ring guide In order to remove the restraint by the reamer 550, the outer ring guide reamer 540 and the inner ring guide reamer 550 are separated only half.

Here, to separate only the outer ring guide reamer 540 and the inner ring guide reamer 550 by half, the outer ring guide reamer 540 is partially coupled with the center post 110 and the first outer ring bolt of the slewing bearing 200 is inserted. It is positioned to be spaced downward from the ball 560, and the inner ring guide reamer 550 is partially coupled with the slewing frame 120 and is spaced upward from the first inner ring bolt insertion hole 580 of the slewing bearing. Is to do.

That is, the outer ring guide reamer 540 and the inner ring guide reamer 550 are respectively coupled with the center post 110 and the slewing frame 120 so as not to interfere with the slewing bearing 200 and the slewing bearing 200 It is positioned so that the withdrawal of can be made.

As such, when the outer ring guide reamer 540 and the inner ring guide reamer 550 are positioned so that no interference with the slewing bearing 200 occurs, the slewing bearing 200 is withdrawn.

At this time, the withdrawal may be more easily performed by the transport medium 220 and the slewing bearing support 210, and the insertion of the new slewing bearing 200 may also be easily performed as described above.

After inserting the slewing bearing 200 into the correct position, the inner ring guide reamer 550 and the outer ring guide reamer 540, which are only half separated, are completely inserted again to insert the first outer ring bolt insertion hole 560 and the second outer ring bolt. The center of the insertion hole 570 can be coincident, and the center of the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 can be coincident.

Next, the slewing bearing coupling step (S60) proceeds.

The slewing bearing coupling step (S60) includes a second jackdown process (S601) in which a jackdown is performed by the jack unit 400 so that the slewing frame 120 and the slewing bearing 200 are in close contact with each other. , The first inner ring fastening member coupling process (S602) for coupling the inner ring fastening member 500 to allow the slewing frame 120 and the slewing bearing 200 to be coupled, and the slewing bearing 200 and the slewing The inner ring guide reamer separating process (S603) for separating the inner ring guide reamer (550) to prevent distortion between the frames (120), and the first inner ring bolt insertion hole (580) exposed through the inner ring guide reamer separating process (S603) And a second inner ring fastening member joining process (S604) for joining the inner ring fastening member to the second inner ring bolt insertion hole 590, and the jack unit so that the center post 110 and the slewing bearing 200 are spaced apart. 400) the third jack-up process is made by the jack-up process (S605), the transport medium removal process (S606) for removing the transport medium 220 inserted in one side of the center post 110, and the center post ( The third jack-down process (S607), in which jack-down is performed by the jack unit 400, and the center post 110 and the slewing bearing 200 are combined so that the 110 and the slewing bearing 200 can be in close contact. Outer ring guide reamer separating primary outer ring fastening member joining process (S608) for joining the outer ring fastening member to be prevented, and outer ring guide reamer 540 preventing distortion between the center post 110 and the slewing bearing 200 Separation process (S609), the outer ring guide reamer separation process (S609) exposed through the first outer ring bolt insertion hole 560 and the second outer ring bolt insertion hole 570 to combine the outer ring fastening member 510 2 Including the vehicle outer ring fastening member coupling process (S610).

First, a second jack-down process (S601) is performed.

The second jack-down process (S601) is to allow the slewing frame 120 and the slewing bearing 200 replaced to be in close contact, and the state of completing this process is (o) shown in FIG. 5. Same as

Here, it is preferable that the removal of the shim 430 is performed in parallel in the process of the second jackdown.

Next, the primary inner ring fastening member coupling process (S602) is performed.

The primary inner ring fastening member coupling process (S602) is to combine the inner ring fastening member 500 to join the slewing frame 120 and the replaced slewing bearing 200. It is the same as (p) shown in FIG. 5.

Next, an inner ring guide reamer separation process (S603) is performed.

The inner ring guide reamer separation process (S603) is to remove the inner ring guide reamer 550 to combine the slewing bearing 200 with the slewing frame 120 after the slewing bearing 200 is replaced. The state in which such a process is completed is as shown in (q) in FIG. 5.

Next, the secondary inner ring fastening member coupling process (S604) is performed.

In the second inner ring fastening member coupling process (S604), the inner ring fastening member 500 is inserted into the first inner ring bolt insertion hole 580 and the second inner ring bolt insertion hole 590 exposed through the inner ring guide reamer separation process (S603). ) By combining the slewing frame 120 and the slewing bearing 200, and the state in which such a process is completed is as shown in (r) in FIG. 5.

Next, the third jack-up process (S605) is performed.

The third jack-up process (S605) is to enable the center post 110 and the slewing bearing 200 to be spaced apart, and the state of completing this process is as shown in FIG. 5 (s).

Here, it is preferable that the insertion of the shim 430 for preventing the falling of the slewing frame 120 in the process of the third jack-up is performed in parallel.

Next, a process for removing the medium for transport (S606) is performed.

The transport medium removal process (S606), the transport medium installed for easy withdrawal and insertion of the slewing bearing 200 as the slewing bearing 200 is replaced by the slewing bearing replacement step (S50) ( 220), the state of completing this process is as shown in (t) in FIG. 5.

Next, the third jack-down process (S607) is performed.

The third jack-down process (S607) is to enable the center post 110 and the slewing bearing 200 to be in close contact, and the state of completing this process is the same as (u) shown in FIG. 5.

Here, it is preferable that the removal of the shim 430 is performed in parallel in the process of the third jackdown.

Next, the primary outer ring fastening member coupling process (S608) is performed.

The primary outer ring fastening member coupling process (S608) is to combine the outer ring fastening member 510 to join the center post 110 and the slewing bearing 200 that has been replaced. It is the same as (v) shown in 5.

Next, the outer ring guide reamer separation process (S609) is performed.

The outer ring guide reamer separation process (S609) is to separate the outer ring guide reamer 540 to combine the slewing bearing 200 with the center post 110 after the slewing bearing 200 is replaced. The state of completing the same process is as shown in (w) in FIG. 5.

Next, the secondary outer ring fastening member coupling process (S610) is performed.

The second outer ring fastening member coupling process (S610), the outer ring fastening member exposed through the second outer ring fastening member bonding process (S610) and the second outer ring bolt insertion hole (570) outer ring fastening member By combining 510, the center post 110 and the slewing bearing 200 are combined, and a state in which such a process is completed is as shown in (x) in FIG. 5.

The slewing bearing 200 may be coupled back to the slewing frame 120 and the center post 110 through the slewing bearing coupling step S60 including such a process.

According to the slewing bearing replacement method of the loading and unloading machine according to the present invention comprising such a step, the jack support and the jack unit are provided on the side of the portal frame, so that it can be applied to the loading and unloading machine having various structures.

In the slewing bearing replacement method of the unloading machine according to the present invention, the weight applied to the slewing frame is minimized by partially removing the weight element and the weight block of the work portion within a mutually balanced range, and the balance of the work portion and the weight block By controlling the load acting on the jack unit according to, it is possible to replace the slewing bearing without large-scale separation of the weight block without installing a separate supporter for supporting the weight of the work unit, which significantly reduces the time and cost required for work. It will be saved.

In the slewing bearing replacement method of the loading and unloading machine according to the present invention, a shim is provided to prevent the slewing frame from falling due to a malfunction of the jack unit. It has the advantage of increased safety.

The scope of the present invention is not limited to the embodiments exemplified above, and many other modifications based on the present invention will be possible to those skilled in the art within the technical scope as described above.

100. Portal frame 110. Center post
120. Slewing frame 130. Working part
140. Weight block 200. Slewing bearing
210. Slewing bearing support 211. Top plate
212. Supporting member 220. Transfer medium
300. Jack support 310. Support base
320. Support frame 330. Jack base
400. Jack unit 410. Jack unit work unit
420. Jack unit body 430. Shim
500. Inner ring fastening member 501. Inner ring bolt
502. Inner ring nut 510. Outer ring fastening member
511.Outer ring bolt 512.Outer ring nut
540. Outer ring guide reamer 550. Inner ring guide reamer
560. First outer ring bolt insertion hole 570. Second outer ring bolt insertion hole
580. First inner ring bolt insertion hole 590. Second inner ring bolt insertion hole
S10. Jack support installation steps
S11. Support base installation process
S12. Support frame combining process
S13. Jack base installation process
S20. Jack unit installation steps
S30. Slewing bearing support installation steps
S40. Slewing bearing separation step
S401. 1st outer ring fastening member separation process
S402. Outer ring guide reamer insertion process
S403. Second outer ring fastening member separation process
S404. 1st Jackup Course
S405. Process of inserting medium for transport
S406. 1st Jackdown Course
S407. 1st inner ring fastening member separation process
S408. Inner ring guide reamer insertion process
S409. Second inner ring fastening member separation process
S410. 2nd jack-up process
S50. Slewing bearing replacement steps
S60. Slewing bearing mating steps
S601. 2nd Jackdown Process
S602. 1st inner ring fastening member coupling process
S603. Inner ring guide reamer separation process
S604. Second inner ring fastening member joining process
S605. 3rd Jackup Course
S606. Transfer media removal process
S607. 3rd Jackdown Process
S608. 1st outer ring fastening member coupling process
S609. Outer ring guide reamer separation process
S610. Second outer ring fastening member joining process

Claims (5)

A slewing bearing of a loading and unloading machine equipped with a portal frame and a center post supporting a plurality of parts, a slewing frame rotatably coupled by a slewing bearing, a work portion where work is performed, and a weight block complementing the center of gravity In the replacement method;
A jack support installation step of installing a jack support for supporting a jack unit for jacking up a slewing frame on one side of the portal frame;
A jack unit installation step of installing a jack unit for jack-up of the slewing frame on one side of the jack support;
A slewing bearing support installation step of installing a slewing bearing support for guiding and supporting the separated slewing bearing for replacement on one side of the portal frame;
A slewing bearing separation step of separating the slewing bearing from the slewing frame and the center post;
A slewing bearing replacement step of replacing the slewing bearing separated from the center post and the slewing frame;
It includes; a slewing bearing coupling step of coupling the slewing bearing replaced by the slewing bearing step with a center post and a slewing frame;
The slewing bearing separation step,
A primary outer ring fastening member separating process of separating a part of the plurality of outer ring fastening members that allow the center post and the slewing bearing to be engaged;
When jack-up and jack-down are performed on the first outer ring bolt insertion hole and the second outer ring bolt insertion hole exposed through the primary outer ring fastening member separation process, the center between the first outer ring bolt insertion hole and the second outer ring bolt insertion hole is distorted. An outer ring guide reamer inserting process for preventing the outer ring guide reamer from being inserted;
A second outer ring fastening member separating process for separating the outer ring fastening members not separated in the first outer ring fastening member separating process;
A first jack-up process in which jack-up is performed by a jack unit so that the center post and the slewing bearing are spaced apart;
A transport medium inserting process for inserting a transport medium for withdrawing a slewing bearing on one side of the center post;
A first jack-down process in which a jack-down is performed by a jack unit so that the slewing bearing and the transport medium are in close contact;
A primary inner ring fastening member separating process of separating a part of the plurality of inner ring fastening members that allow the slewing frame and the slewing bearing to be coupled;
When jack-up and jack-down are performed on the first inner ring bolt insertion hole and the second inner ring bolt insertion hole exposed through the primary inner ring fastening member separation process, the center between the first inner ring bolt insertion hole and the second inner ring bolt insertion hole is displaced. A process of inserting an inner ring guide reamer to prevent an inner ring guide reamer from being prevented;
A second inner ring fastening member separating process for separating the inner ring fastening members not separated in the first inner ring fastening member separating process;
And a second jack-up process in which jack-up is performed by a jack unit so that the slewing frame and the slewing bearing are spaced apart. According to claim 1,
The jack support installation step,
A support base installation process of installing a support base on one side of the portal frame;
Support frame coupling process for coupling a support frame to one side of the support base; Slewing bearing replacement method of a loading and unloading machine characterized in that proceeds, including. delete According to claim 1,
The slewing bearing coupling step,
A second jack-down process in which jack-down is performed by a jack unit so that the slewing frame and the slewing bearing are in close contact;
A primary inner ring fastening member coupling process for coupling the inner ring fastening member to allow the slewing frame and the slewing bearing to be coupled;
An inner ring guide reamer separation process for separating an inner ring guide reamer preventing distortion between the slewing bearing and the slewing frame;
A second inner ring fastening member coupling process for coupling the inner ring fastening member to the first inner ring bolt insertion hole and the second inner ring bolt insertion hole exposed through the inner ring guide reamer separation process;
A third jack-up process in which jack-up is performed by a jack unit so that the center post and the slewing bearing are spaced apart;
A transport medium removal process for removing the transport medium inserted into one side of the center post;
A third jack-down process in which jack-down is performed by a jack unit so that the center post and the slewing bearing are in close contact;
A primary outer ring fastening member coupling process for coupling the outer ring fastening member to allow the center post and the slewing bearing to be coupled;
An outer ring guide reamer separation process for separating an outer ring guide reamer preventing distortion between the center post and the slewing bearing;
Slewing of the loading and unloading machine characterized in that it proceeds, including; a second outer ring fastening member coupling process of coupling the outer ring fastening member to the first outer ring bolt insertion hole and the second outer ring bolt insertion hole exposed through the outer ring guide reamer separation process Bearing replacement method. According to claim 1,
In the process in which the jack-up is performed by the jack unit, progress is performed while inserting a shim to prevent the slewing frame from falling on one side of the jack unit,
The shim is a slewing bearing replacement method of a loading and unloading machine, characterized in that made of a shape corresponding to the jack unit.

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